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Nuclear Substances and Radiation Devices
Radiation Protection Programs for Nuclear Substances and Radiation Devices Licences
REGDOC-1.6.2
August 2021
Radiation Protection Programs for Nuclear Substances and Radiation Devices Licences Regulatory document REGDOC-1.6.2
© Canadian Nuclear Safety Commission (CNSC) 2021
Cat. No. CC172-236/2021E-PDF
ISBN 978-0-660-39084-0
Extracts from this document may be reproduced for individual use without permission provided the
source is fully acknowledged. However, reproduction in whole or in part for purposes of resale or
redistribution requires prior written permission from the CNSC.
Également publié en français sous le titre : Programmes de radioprotection pour les permis de
substances nucléaires et d’appareils à rayonnement
Document availability
This document can be viewed on the CNSC website. To request a copy of the document in English or
French, please contact:
Canadian Nuclear Safety Commission
280 Slater Street
P.O. Box 1046, Station B
Ottawa, ON K1P 5S9
Canada
Telephone: 613-995-5894 or 1-800-668-5284 (in Canada only)
Facsimile: 613-995-5086
Email: cnsc.info.ccsn@cnsc-ccsn.gc.ca
Website: nuclearsafety.gc.ca
Facebook: facebook.com/CanadianNuclearSafetyCommission
YouTube: youtube.com/cnscccsn
Twitter: @CNSC_CCSN
LinkedIn: linkedin.com/company/cnsc-ccsn
Publishing history
August 2021 Version 1.0
August 2021 REGDOC-1.6.2, Radiation Protection Programs for
Nuclear Substances and Radiation Devices Licences
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Preface
This regulatory document is part of the CNSC’s nuclear substances and radiation devices series of
regulatory documents. The full list of regulatory document series is included at the end of this document
and can also be found on the CNSC’s website.
Regulatory document REGDOC-1.6.2, Radiation Protection Programs for Nuclear Substances and
Radiation Devices Licences, provides guidance to nuclear substances and radiation devices licensees and
applicants on the development, implementation, management and assessment of their radiation protection
programs. REGDOC-1.6.2 also identifies the CNSC’s considerations in assessing the adequacy of a
radiation protection program.
REGDOC-1.6.2 is a new regulatory document meant to be used in conjunction with REGDOC-1.6.1,
Licence Application Guide: Nuclear Substances and Radiation Devices, which sets out requirements and
guidance for nuclear substances and radiation devices licensees and applicants.
For information on the implementation of regulatory documents and on the graded approach, see
REGDOC-3.5.3, Regulatory Fundamentals.
The words “shall” and “must” are used to express requirements to be satisfied by the licensee or
licence applicant. “Should” is used to express guidance or that which is advised. “May” is used to
express an option or that which is advised or permissible within the limits of this regulatory document.
“Can” is used to express possibility or capability.
Nothing contained in this document is to be construed as relieving any licensee from any other
pertinent requirements. It is the licensee’s responsibility to identify and comply with all applicable
regulations and licence conditions.
August 2021 REGDOC-1.6.2, Radiation Protection Programs for
Nuclear Substances and Radiation Devices Licences
Table of Contents
1. Introduction .................................................................................................................................... 1
1.1 Purpose................................................................................................................................ 1
1.2 Scope ................................................................................................................................... 1
1.3 Relevant legislation ............................................................................................................. 2
2. Responsibility for Radiation Safety .............................................................................................. 2
3. Radiation Safety Officer ................................................................................................................ 3
3.1 Duties .................................................................................................................................. 3
3.2 Authority of the RSO .......................................................................................................... 4
3.3 Qualifications ...................................................................................................................... 4
3.3.1 Refresher training .................................................................................................. 5
3.4 RSO staffing ....................................................................................................................... 6
3.4.1 Alternate RSO ........................................................................................................ 6
3.4.2 Site RSO ................................................................................................................ 6
3.4.3 Consultant .............................................................................................................. 6
4. Radiation Protection Program, Policies and Procedures ........................................................... 7
4.1 Developing an RPP ............................................................................................................. 7
4.2 Radiation safety manual ...................................................................................................... 7
4.3 Management system ........................................................................................................... 8
4.4 Policies and procedures .................................................................................................... 10
5. Implementing the Radiation Protection Program .................................................................... 10
5.1 Fostering a healthy safety culture ..................................................................................... 10
6. Assessing the Radiation Protection Program ............................................................................ 11
6.1 Self-assessments ............................................................................................................... 11
6.2 Independent assessments .................................................................................................. 12
6.3 Management reviews ........................................................................................................ 12
Appendix A: Examples of RSO Duties .................................................................................................... 14
Appendix B: Radiation Safety Committee .............................................................................................. 18
B.1 Role and Responsibilities .................................................................................................. 18
B.2 Membership ...................................................................................................................... 18
B.3 Terms of Reference ........................................................................................................... 19
B.4 Meetings............................................................................................................................ 19
August 2021 REGDOC-1.6.2, Radiation Protection Programs for
Nuclear Substances and Radiation Devices Licences
Glossary ..................................................................................................................................................... 20
References .................................................................................................................................................. 21
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Radiation Protection Programs for
Nuclear Substances and Radiation Devices Licences
1. Introduction
As stated in section 4 of the Radiation Protection Regulations, all CNSC licensees are required to
implement a radiation protection program (RPP). REGDOC-1.6.1, Licence Application Guide:
Nuclear Substances and Radiation Devices [1], also requires applicants to submit a proposed RPP
with their licence application.
As CNSC licences for the use of nuclear substances and radiation devices vary in scope and
associated risk, the content and level of detail of the RPP should be commensurate with these
elements.
An RPP is submitted as part of the licence application and is the applicant’s proposal on how it
intends to comply with regulatory requirements. As such, the RPP is referenced in the licence
appendix, and its implementation is verified during inspections by the CNSC. An RPP is typically
developed, implemented and managed to suit the licensed activity, complexity and circumstances
of the licensee.
The fundamental elements of an RPP are people and procedures. Sections 2 and 3 of this
document describe the roles and responsibilities of the radiation safety officer (RSO), who is
responsible for managing the RPP. Sections 4, 5, 6 and 7 provide information about the elements
that should be considered when developing, implementing and assessing an RPP.
1.1 Purpose
This document provides guidance for nuclear substances and radiation devices licensees and
applicants on how to develop, implement and assess an RPP as required by the Radiation
Protection Regulations. It also provides guidance on how to meet requirements found in the
Nuclear Substances and Radiation Devices Regulations and the CNSC’s regulatory documents.
REGDOC-1.6.2 is meant to be used in conjunction with REGDOC-1.6.1, Licence Application
Guide: Nuclear Substances and Radiation Devices [1], which sets out requirements and guidance
for licensees of nuclear substances and radiation devices. REGDOC-1.6.2 also gives examples of
effective RPPs and related best practices, given the CNSC’s considerations in assessing the
adequacy of an RPP.
1.2 Scope
This document contains guidance for nuclear substances and radiation devices licensees and
applicants for developing, implementing and assessing an RPP. It can also provide useful
information for nuclear substances and radiation devices that fall under other classes of licences.
Some licences can have programs that are considered complex. For those licences, additional
information may be needed in order to develop, implement, manage and assess their RPPs. When
assessing a licence application for nuclear substances and radiation devices, the CNSC will
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determine if a program is considered complex and inform licensees accordingly. The CNSC will
take different factors into consideration, including:
medium- and high-risk use types
licences for the consolidated use of nuclear substances (use type 815)
multiple licensed locations
multiple licences issued at the same location
multiple licences issued for the same organization
Appendix B provides information on the Radiation Safety Committee for licensees and applicants
with complex programs, but could also be useful for other applicants.
1.3 Relevant legislation
The following provisions of the Nuclear Safety and Control Act (NSCA) and the regulations
made under it are relevant to this document:
NSCA, sections 24, 26 and 27
General Nuclear Safety and Control Regulations, sections 3–7, 10, 12, 15, 17, 27, 28, 29 and
31
Nuclear Security Regulations, sections 3, 4 and 5
Nuclear Substances and Radiation Devices Regulations, sections 3–9, 11, 16, 17, 18, 20, 22,
23, 24, 30–38 and Schedule 1
Packaging and Transport of Nuclear Substances Regulations, 2015, sections 19, 25, 26, 29,
37, 40 and 42
Radiation Protection Regulations, sections 3–16, 20-25
2. Responsibility for Radiation Safety
The licensee is accountable and responsible for radiation safety and for the conduct of all licensed
activities that are authorized under its CNSC licence. The licensee assigns an applicant authority,
who is an individual at the senior management level with sufficient authority – for both financial
and human resources – for ensuring that an RPP is implemented in accordance with all regulatory
requirements. The applicant authority has the full legal and financial responsibility for the licence
and is ultimately responsible for the RPP.
The applicant authority can delegate duties for the day-to-day oversight of the RPP to an
individual known as the radiation safety officer (RSO). However, the accountability for the RPP
cannot be delegated.
The applicant authority is responsible for ensuring that sufficient resources are allocated to the
RSO; for example:
human resources to assist with managing and executing the required duties
sufficient authority to meet regulatory requirements (see section 3.2)
administrative assistance with correspondence, record-keeping requirements and document
management associated with a CNSC licence
financial resources to meet regulatory expectations and to address non-compliance, such as
those for personnel training and for purchasing radiation monitoring equipment or other
equipment
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Further details on the responsibilities of the applicant authority and on guidance for allocating
resources can be found respectively in REGDOC-1.6.1, Licence Application Guide: Nuclear
Substances and Radiation Devices [1], and Welcome Package: Applicant Authority, Nuclear
Substances and Radiation Devices Licences [2].
3. Radiation Safety Officer
RSO is the designation commonly assigned to a radiation safety professional who, as a critical
component of an RPP, administers the program on a day-to-day basis. As stated in section 15 of
the General Nuclear Safety and Control Regulations, the applicant authority shall designate an
RSO and complete the Request to Appoint a Radiation Safety Officer or an Alternate Radiation
Safety Officer: Nuclear Substances and Radiation Devices Licence form. By signing this form,
the RSO agrees to take responsibility for overseeing the implementation and management of the
RPP and to communicate with the CNSC for all matters pertaining to it.
As described in REGDOC-1.6.1, Licence Application Guide: Nuclear Substances and Radiation
Devices [1], the RSO shall have the time, resources and authority to enforce policies and
procedures established under the RPP in order to meet all regulatory requirements.
Responsibilities of an RSO typically include:
ensuring the health and safety of personnel, the public and the environment
overseeing the daily aspects of the radiation safety program
acting as the primary contact with the CNSC for licensing and compliance matters
identifying radiation safety problems
providing radiation safety advice to workers when requested
implementing corrective actions
verifying the implementation and effectiveness of the corrective actions
ensuring compliance with CNSC regulatory requirements
reporting regulatory non-compliance to the CNSC
holding the authority to stop any unsafe work practices and any activity that might result in
non-compliance
developing procedures and policies related to radiation safety and training
assessing the performance of the RPP and sharing the results with the applicant authority
acting as the signing authority for CNSC licences
Depending on the structure and size of the licensed organization, an RSO could be designated to
oversee RPP management at the corporate level, with assistance from other individuals (site
RSOs) who oversee the program onsite to ensure that the RPP is effectively implemented and
applied.
Note: All references to “shall” in the following subsections relate to regulatory requirements for
applications for nuclear substance and radiation device licences, as outlined in REGDOC-1.6.1,
Licence Application Guide: Nuclear Substances and Radiation Devices [1].
3.1 Duties
The RSO shall be given sufficient time to respond to day-to-day situations and to manage the
RPP. The applicant authority is accountable for ensuring that the RSO has adequate ability and
availability to manage the RPP, and that competing duties or priorities are not adjunct. The
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applicant authority should also ensure that the RSO’s assigned duties do not create a conflict of
interest.
The allocated time will be estimated by the licensee or applicant, taking into consideration the
number of workers, the magnitude of operations and the geographic disparity of sites within the
organization. It may be necessary to delegate the duties to a full-time RSO to oversee a complex
program. For other programs, the RSO could manage the RPP on a part-time basis while
assuming other duties. Depending on the organizational size and geographic disparity of sites,
additional support may be required, as described in section 3.4.2.
The RSO typically provides day-to-day administrative oversight of radiation safety. As a best
practice, the RSO should be provided with a description of duties and the number of hours to be
dedicated to them. The ability of the RSO to manage the RPP should be evaluated by the
applicant authority at defined intervals, in order to identify where additional time or other
assistance is needed.
A non-exhaustive list of examples of duties is provided in appendix A.
3.2 Authority of the RSO
The RSO is responsible for the day-to-day administration and control of the radiation protection
program on behalf of the licensee.
In particular, the RSO shall have the necessary authority to:
implement the RPP
identify problems or issues than could lead to non-compliance with regulatory requirements
initiate corrective actions and verify their implementation and effectiveness
immediately stop any work, task or undertaking that they consider unsafe for workers or that
may contravene requirements of the NSCA and its regulations or of the CNSC licence,
regardless of the stoppage’s potential impact on the organization’s operations
communicate directly with the applicant authority
act as signing authority on all matters of radiation safety, the CNSC licence and the
obligations of the licensee
implement and enforce any changes to any work, task or undertaking which are necessary to
ensure that the licensee remains compliant or returns to compliance
modify any policy and procedure, and ensure that the changes are properly documented and
communicated to workers
3.3 Qualifications
The RSO shall have sufficient knowledge to effectively manage activities with nuclear substances
and radiation devices in accordance with the NSCA and its relevant regulations. The details of the
RSO’s qualifications shall also be included in the licence application, and a copy of the RSO’s
training course certificate shall be submitted to the CNSC.
The RSO’s qualifications could vary according to the responsibilities assigned to the RSO and the
complexity of the licensee’s use of nuclear substances, but should include knowledge and/or
experience related to:
fundamental radiation protection principles
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radiation safety
safe use of nuclear substances and radiation devices authorized under the CNSC licence
dosimetry
radiation instrumentation
licensed activities and its conventional hazards
conditions of the CNSC licence
applicable CNSC regulatory documents
CNSC licensing and compliance verification programs
authorities and responsibilities of the position
Additional knowledge and/or experience, based on the proposed licensed activities, could
include:
source recovery activities, for industrial radiography licences
transportation of dangerous goods, for those shipping or receiving nuclear substances and
radiation devices
contamination control and spill management techniques, for those using unsealed nuclear
substances
safe management and use of the nuclear substances and radiation devices, including any
special considerations (e.g., confined spaces, biohazardous materials)
The CNSC does not endorse or recommend any specific RSO training organization, but offers an
online list of service providers to licensees for information only.
3.3.1 Refresher training
RSOs shall maintain their qualifications by undertaking refresher training. This should include a
review of the fundamentals of protection and safety; information on any changes to safety
standards, equipment, policies and procedures; and an overview of any changes in regulatory
requirements.
Refresher training should be provided at least every 3 to 5 years and when safety issues, or
changes to regulatory requirements or licence conditions, occur. Refresher training should also be
delivered to RSOs after a long-term absence, such as those listed in section 3.4.1. The frequency
and extent of the refresher training should be defined and documented in the RPP.
Licensees or applicants can set the frequency of refresher training to match other mandatory
training programs. For example, many CNSC licensees hold refresher training every 3 years, at
the same time as Transport Canada’s Transportation of Dangerous Goods training.
Refresher training should be determined based on an evaluation of the complexity, importance
and frequency of the tasks assigned. A training needs analysis should be conducted when any
changes are made to the RSOs’ activities or responsibilities.
As part of the refresher training, RSOs should review their knowledge of CNSC regulatory
requirements. RSOs should be made aware of any changes to regulatory requirements that may
impact the licensed activities authorized under the CNSC licence. More details on radiation safety
training programs can be found in appendix A of REGDOC-2.2.2, Personnel Training [3].
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3.4 RSO staffing
If the RSO cannot be at the site of the licensed activity or reasonably be able to attend to the site
of licensed activity, other persons can be assigned RSO duties to ensure continuous oversight of
the RPP at the site, such as alternate RSOs, site RSOs or consultants.
Any person replacing or assisting the RSO should have similar levels of training and knowledge
on the licensed activities and the regulatory requirements.
3.4.1 Alternate RSO
An alternate RSO is designated during the RSO’s absence, in order to carry on the licensed
activities and to ensure continuous oversight of the RPP. The alternate RSO can also be involved
with the day-to-day management of the RPP as an assistant to the RSO.
In the case of long-term absences, such as parental leave, extended assignment to other duties,
severe illness or injury, the licensee shall notify the CNSC of the replacement. This can be done
by completing the Request to Appoint a Radiation Safety Officer or an Alternate Radiation Safety
Officer: Nuclear Substances and Radiation Devices Licence form.
3.4.2 Site RSO
When an application is submitted to conduct licensed activities in multiple geographical
locations, each location should have a site RSO in order to ensure direct oversight of the RPP.
The site RSO should maintain a presence in the workplace by periodically observing work
practices to implement and manage the RPP. The site RSO can be designated by the RSO.
The site RSO should report to the RSO on all radiation protection matters. The roles and
responsibilities and the lines of authority for the site RSO should be clearly defined. It should be
clear that the RSO remains the person responsible for managing the overall RPP and is the main
liaison with the CNSC.
3.4.3 Consultant
If there are no qualified or available personnel to assume the role of the RSO, it is acceptable to
temporarily contract an independent consultant to serve as the RSO or site RSO. The licensee or
applicant shall ensure that the consultant can spend enough time at the licensed location to
oversee the RPP, even if that individual is managing several programs simultaneously.
In terms of licensed activities and regulatory requirements, the consultant should have a similar
level of knowledge and training that would be expected of an RSO.
It is important to remember that the applicant authority remains accountable for the
implementation of the RPP.
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4. Radiation Protection Program, Policies and Procedures
4.1 Developing an RPP
The overall objectives of the RPP are:
to protect workers, the general public and environment by ensuring that radiation doses are
kept as low as reasonably achievable (ALARA)
to ensure that regulatory requirements and licence conditions are met
to describe the organizational structure and the roles and responsibilities of management and
personnel
to ensure that proper training and instruction delivered to workers includes:
radiation protection
knowledge of emergency procedures
knowledge on the licensed activities and the regulatory requirements
The RPP is normally developed by the licensee in collaboration with the RSO, specialists and
other relevant staff. Licensees or applicants may also involve their occupational health and safety
committee, since they play a similar role in the protection of workers and the public. To ensure
radiation safety and compliance with the relevant requirements, a typical RPP includes operating
policies and procedures that demonstrate its effectiveness and that describe how it will be
maintained. Further information can be found in REGDOC-1.6.1, Licence Application Guide:
Nuclear Substances and Radiation Devices [1].
The specific details of the RPP are usually documented in a radiation safety manual.
4.2 Radiation safety manual
As a good practice, the radiation safety manual should be signed and dated by the RSO and
applicant authority to confirm that the published version of the manual was reviewed and
approved. It is recommended that the RPP be reviewed periodically and updated as necessary, to
reflect any changes to policies, procedures and regulatory requirements. The frequency of reviews
should be determined, defined and documented. It is important to note that the licensee is to
inform CNSC licensing staff, and to submit any changes to them for review and approval, before
implementing the new version of the radiation safety manual. Prior to implementation, the
updated version will be referenced on the licence. It is important to ensure that revisions to the
radiation safety manual also include documented version control.
Pursuant to section 12 of the General Nuclear Safety and Control Regulations, workers shall be
informed of all changes and modifications made to any policies and procedures within the
radiation safety manual. This can be done through different means, such as training sessions,
emails or weekly meetings, as long as this is documented by the licensee to prove that workers
have received the updated information. The preferred process to inform workers should be
documented in the RPP.
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4.3 Management system
A management system is the framework of processes, procedures and practices that enable the
organization to complete all work activities to achieve success.
The management system helps define how licensed activities are managed in order to meet
objectives and requirements consistently and safely. The RPP should be developed and aligned
with management system principles that are incorporated into key management processes.
Management system principles
a) Safety is the paramount consideration guiding decisions and actions
Risk and safety are considered in all decision making and actions; this is promoted throughout the
organization as a key driver for a healthy safety culture.
b) The licensed activities are defined, planned and controlled
Objectives and plans are established including all relevant requirements. Risks to objectives are
identified and controlled. Results are measured and monitored to ensure that planned results are
achieved.
c) The organization is defined and understood
Authorities, accountabilities, line of communications and responsibilities of positions are
communicated and understood by everyone. This is reflected in the organization structure.
d) Resources are managed
Resources including infrastructure, equipment, tools, material, manpower, competency and
qualification of personnel are identified and provided.
e) Communication is effective
Processes are in place to ensure that workers know what is expected of them, and that they
understand the relevance and importance of their work.
f) Information is managed
Information is provided in a timely manner to those who need it. Documents and records are
maintained and controlled.
g) Work is managed
Work is identified, planned and conducted using controlled documents, software, tools, items,
processes and practices. Work is verified to ensure that it is completed correctly.
h) Problems are identified and resolved
Problems are identified, controlled, documented and evaluated for significance. Corrective
actions are reviewed for effectiveness.
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i) Changes are controlled
Required changes, including those for organization, design, engineering, process and
documentation, are identified, justified, controlled and reviewed for effectiveness.
j) Assessments are performed
Self-assessments, independent assessments and management review and oversight are conducted
to assess that the licensed activities are meeting performance objectives and planned results.
k) Experience is sought, used and shared
Lessons learned internally or externally arising from experience gained from problems, events, or
improvements, from similar or different activities, are collected, shared and used.
l) The management system is continually improved
Management continually improves the management system. This includes resolving problems,
learning from assessments and identifying improvement opportunities.
m) Processes are applied appropriately and there is accountability for the management
system
Management processes are applied to all work associated with licensed activities, including
design, procurement, construction, commissioning, operations, maintenance and
decommissioning.
Senior management is accountable for the effectiveness and implementation of the management
system.
n) Other
The management system sets expectations for and supports human performance and safety
culture. It does this by providing the mechanisms by which an organization can plan, do, assess
and correct its activities to meet requirements and improve on performance (see section 5.1 for
more information).
Numerous standards typically refer to core management processes; for example: planning,
resource and competency management, document management, change control, work
management, corrective actions in case of non-conformance, monitoring and measurement,
internal audits and assessments, management review, and continuous improvement.
The following documents contain more information on management systems:
REGDOC-2.1.1, Management System [4], provides information on management system
principles.
CSA N286-12, Management System Requirements for Nuclear Facilities [5], describes the
generic requirements for each of the principles.
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4.4 Policies and procedures
The RPP includes procedures that inform and direct persons who use or oversee the use of
nuclear substances and radiation devices. Depending on the complexity and risk inherent in the
RPP and the organization’s structure, the policies and procedures can be submitted to the
radiation safety committee (RSC) for review and/or approval before implementation. Further
information on the RSC can be found in appendix B.
For good practices in writing technical procedures, see:
Procedure Writers’ Manual [6]
Procedure Process Description [7]
Guidance for Preparing Standard Operating Procedures [8]
5. Implementing the Radiation Protection Program
In addition to the access to resources, communications are key to effectively implementing the
RPP, ensuring safety and meeting regulatory requirements. The applicant authority should
transmit information coming from management to the RSO and to workers. Workers and the RSO
should also be able to communicate to management through the applicant authority.
For successful implementation of the RPP, workers and management should have access to the
RPP, understand its implications and be able to communicate when changes are required.
As described in the following section, safety culture is supported by ensuring the implementation
and oversight of radiation safety, by minimizing the likelihood of safety-related events and by
mitigating the potential impact of such events.
5.1 Fostering a healthy safety culture
An organization that actively fosters a healthy safety culture can have a powerful influence on
employee attitudes and behaviours, and maintaining the safety of workers, the public and the
environment.
As described in REGDOC-2.1.2, Safety Culture [9], the CNSC defines safety culture as the
characteristics of the work environment, such as the values, rules, and common understandings
that influence workers’ perceptions and attitudes about the importance that the organization
places on safety.
A healthy safety culture evolves from the development and application of a questioning attitude at
all levels of the organization. Understanding an organization’s safety culture, as well as
perceptions and attitudes of both workers and management, is vital to maintaining and improving
radiation safety. This relies equally on the shared commitment of the applicant authority, RSOs
and workers to promote, foster and sustain that culture.
Licensees or applicants may foster a healthy safety culture by:
promoting the commitment to protection and safety at all levels of the organization
ensuring a common understanding of the key principles of the safety culture within the
organization
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providing the means by which the organization supports individuals and teams in carrying out
their tasks safely and effectively, taking into account the interactions between individuals,
technology and the organization
providing a safe work environment that enables reporting without fear of reprisal
encouraging workers to participate in the development and implementation of policies, rules
and procedures that deal with protection and safety
ensuring the accountability of the organization and of individuals at all levels for protection
and safety
encouraging open communication about protection and safety within the organization and
other relevant parties
encouraging a questioning attitude to challenge prevailing assumptions with respect to the
planning and execution of work
providing the means by which the organization continually seeks to better understand,
develop and strengthen its safety culture
Information and guidance on how to assess and improve safety culture can be found in
REGDOC-2.1.2, Safety Culture [9].
6. Assessing the Radiation Protection Program
As stated in section 3 of the Nuclear Substances and Radiation Devices Regulations, the RPP
shall include means to periodically assess the performance of the program. This may be
performed through self-assessments, independent assessments or management reviews. The RPP
should define the type(s) of assessment(s) to perform, the frequency and the method(s) to be used.
Note: An inspection performed by a CNSC inspector is not considered an assessment activity.
The results of these assessments should be documented and shared with the applicant authority
and with the RSC, if one has been established. A follow-up of the deficiencies identified and their
corrective actions should be conducted to ensure the items of non-compliance are properly
resolved and verified for effective implementation.
Assessments ensure that the RPP is adequate, effective, up to date and implemented in
accordance with the ALARA principle. The information collected during assessments may be
used to improve any weaknesses identified for continuous improvement.
Although the RPP should be reviewed at least every five years, the frequency of the assessments
will depend on the complexity of the RPP and the risk associated with the licensed activity. The
frequency and the chosen method(s) should be defined and documented in the RPP. The basis of
the assessments may need to be expanded to account for different use types, associated hazards
and mitigating controls. The RPP should be reviewed following changes in operations or
regulatory requirements.
These assessments can be carried out using checklists, document reviews, observations of actual
work being performed against procedures and staff interviews.
6.1 Self-assessments
Self-assessments are conducted periodically by all levels of management in their areas of
responsibility (e.g., RSOs, site RSOs, site representatives, coordinators, supervisors, managers,
etc.). These assessments are performed to evaluate work or processes, to identify opportunities for
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improvement, and to confirm that the work being performed that has an impact on the licensed
activities is meeting RPP requirements. Self-assessments are less stringent than independent
assessments and may be informal, planned, unplanned or ad hoc when deemed necessary.
Self-assessments are important in evaluating the implementation and effectiveness of the RPP.
They can be done through management walk-arounds; observation of the work being performed
to ensure they are aligned with procedures and training; periodic meetings; or use of checklists,
internal audits or inspections. Self-assessments of the RPP are generally conducted by the site
RSO to assess the work practices against requirements established in the RPP and to identify
opportunities for improvement.
The RPP should describe the self-assessment methods used and when it should take place. Self-
assessment results may be used as inputs for the independent assessments.
The list of examples of Type II inspection worksheets on the CNSC’s website can be useful when
developing a self-assessment policy and procedure.
6.2 Independent assessments
Independent assessments, which may also be referred to as internal or external audits, are planned
and carried out at set frequencies by qualified auditors, on behalf of the applicant authority or top
management. The primary objective of the independent assessment of radiation safety is to
confirm that the documented RPP meets the requirements and that its implementation is effective.
The RPP should describe the frequency of the independent assessments and describe the elements
that will be assessed. The frequency should be determined based on the complexity of the
licensed activities and the results of previous assessments, with specific regard to deficiencies
identified. Based on best practices, independent assessments should be performed at least
annually, or in response to significant changes in the organization’s licensed activities, following
identification of weaknesses in safety, or after substantive changes to work practices have been
implemented.
The personnel performing the assessment should not have been involved in any aspects of the
work, processes or topic being audited. The assessments can be completed by someone internal or
external to the organization, but are generally conducted by the corporate RSO, alternate RSO or
site RSOs.
The results of self-assessments and independent assessments are reported to the applicant
authority, RSC or to the management level with authority and accountability to resolve noted
deficiencies.
6.3 Management reviews
Management reviews are conducted by the applicant authority at a set frequency as an oversight
activity, to assess the effectiveness of the RPP and to proactively make improvements as required.
The frequency of management reviews should be defined in the RPP and should be based on the
complexity of the licensed activities, changes to the licensed activities or as a result of event
investigations.
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The results of self-assessments and independent assessments should form the basis for decisions
and actions at management review meetings. Management reviews should be documented and
communicated to the appropriate management and staff, and to the RSC if there is one in place.
Problems identified should be tracked and the appropriate corrective actions for follow-up should
be established, as described in the RPP.
The CAN/CSA- ISO 9001: 16, Quality Management Systems – Requirements [10], can be useful
guidelines to follow for conducting management review.
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Appendix A: Examples of RSO Duties
The duties of the RSO may vary depending on the licensed activity. The following list includes examples
of tasks that may be required of the RSO, in collaboration with the applicant authority and workers, and is
organized by safety and control area (SCA). SCAs are the technical topics used by the CNSC to assess,
review, verify and report on regulatory requirements and performance across all regulated facilities and
activities.
Conventional health and safety
This SCA covers the implementation of a program to manage workplace safety hazards and to protect
workers.
Stop unsafe work practices.
Take into consideration all health and safety hazards that may be present where the licensed activity
is conducted.
Emergency management and fire protection
This SCA covers emergency plans and emergency preparedness programs for emergencies and for non-
routine conditions. It also includes any results of participation in emergency exercises.
Coordinate or participate in emergency responses to events involving nuclear substances and
radiation devices.
Investigate all unusual occurrences, determine the cause, identify corrective actions and implement
such actions.
Environmental protection
This SCA covers programs that identify, control and monitor all releases of radioactive and hazardous
substances and effects on the environment from facilities or as the result of licensed activities.
Determine whether additional measures are required due to a release of nuclear substances into the
environment.
Fitness for service
This SCA covers activities that impact the physical condition of structures, systems and components to
ensure that they remain effective over time. This includes programs that ensure all equipment is available
to perform its intended design function when called upon to do so.
Ensure that sealed sources are leak tested at the required frequency and in accordance with the
regulatory requirements.
Ensure that radiation-monitoring instruments are calibrated in accordance with the regulatory
requirements.
Maintain a sufficient supply of radiation monitoring instruments that are capable of detecting the
nuclear substances in use.
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Human performance management
This SCA covers activities that enable effective human performance through the development and
implementation of processes that ensure that a sufficient number of licensee personnel are in all relevant
job areas and have the necessary knowledge, skills, procedures and tools in place to safely carry out their
duties.
Ensure that workers who are required to use nuclear substances and radiation devices are adequately
trained in radiation safety and radiation protection procedures.
Authorize qualified workers to use nuclear substances or radiation devices.
Ensure that the certification of exposure device operators is valid.
Ensure that auxiliary personnel (e.g., clerical, janitorial, security) whose duties may occasionally
expose them to nuclear substances and radiation devices receive appropriate training in radiation
safety.
Provide refresher training.
Management system
This SCA covers the framework that establishes the processes and programs required to ensure an
organization achieves its safety objectives, continuously monitors its performance against these
objectives, and fosters a healthy safety culture.
Ensure that the licensed activity complies with regulatory requirements.
Ensure that all records and reports are prepared, maintained and submitted in accordance with licence
conditions and regulatory requirements.
Propose or initiate any revisions to policies or procedures and changes to equipment or room design,
and submit licence amendments, as required.
Prepare and implement corrective actions to address any deficiencies identified.
Conduct assessments of the RPP.
Operating performance
This SCA includes an overall review of the conduct of the licensed activities and the activities that enable
effective performance.
Monitor, and advise and consult on issues related to the handling of nuclear substances and radiation
devices in accordance with licence conditions and regulatory requirements.
Develop, implement and assess an RPP that is consistent with the scope of the licensed activities to
ensure compliance with regulatory requirements.
Review requests for authorization to purchase or use nuclear substances and radiation devices, in
order to ensure that the proposed handling and location of storage are acceptable and comply with the
RPP, licence conditions and regulatory requirements.
Develop and implement programs to inspect and review licensed activities, the locations of nuclear
substance and radiation devices and the adequacy of worker training, safety procedures and the work
environment.
Investigate all reports of overexposure to ionizing radiation, as well as accidents and losses involving
nuclear substances and radiation devices, determine pertinent facts or confirm events, and recommend
appropriate actions to mitigate the consequences or prevent recurrences.
Ensure that the events and the results of related investigations are reported to the CNSC and other
relevant authorities in accordance with licence conditions and regulatory requirements.
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Maintain a presence in the workplace by periodically observing work to promote good work practices
and prevent non-compliance.
Administer or control the distribution, use and maintenance of personnel radiation monitoring
equipment.
Maintain open communication with all workers and management.
Act on behalf of the licensee in communicating with the CNSC.
Advise workers on decontamination methods and techniques.
Packaging and transport
This SCA covers programs for the safe packaging and transport of nuclear substances to and from the
licensed facility.
Ensure that packaging and transport of nuclear substances and radiation devices comply with the
Packaging and Transport of Nuclear Substances Regulations, 2015
Physical design
This SCA relates to activities that impact the ability of structures, systems and components to meet and
maintain their design basis given new information arising over time and taking changes in the external
environment into account.
Ensure that a design assessment form is submitted and approved for each room, area or enclosure in
which nuclear substances and radiation devices will be used or stored.
Radiation protection
This SCA covers the implementation of a radiation protection program in accordance with the Radiation
Protection Regulations. The program shall ensure that contamination levels and radiation doses received
by individuals are monitored, controlled and maintained ALARA.
Provide appropriate personal radiation detection equipment to workers.
Design and implement appropriate personnel monitoring programs.
Review the occupational radiation exposures of workers.
Recommend measures to reduce occupational radiation exposures in accordance with ALARA.
Provide information to nuclear energy workers in accordance with the Radiation Protection
Regulations.
Design and implement a radiation survey and contamination monitoring program, and assess the
results.
Establish internal administrative and action levels.
Safeguards and non-proliferation
This SCA covers the programs and activities required for the successful implementation of the obligations
arising from the Canada/International Atomic Energy Agency (IAEA) safeguards agreements, as well as
all other measures arising from the Treaty on the Non-Proliferation of Nuclear Weapons.
Ensure compliance with the regulatory requirements for safeguards and non-proliferation.
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Safety analysis
This SCA includes maintenance of the safety analysis that supports the overall safety case for the facility.
Safety analysis is a systematic evaluation of the potential hazards associated with the conduct of a
proposed activity or facility and considers the effectiveness of preventive measures and strategies in
reducing the effects of such hazards.
Evaluate potential hazards and preventive measures.
Manage safety issues (including research and development programs).
Security
This SCA covers the programs required to implement and support the security requirements.
ensure that measures are in place for the physical security of sealed and unsealed sources
ensure appropriate access control measures are in place for designated areas
maintain and submit information to update the Sealed Source Tracking System
Waste management
This SCA covers internal waste-related programs that form part of the facility’s operations up to the point
where the waste is removed from the facility to a separate waste management facility. This area also
covers the planning for decommissioning.
Arrange for the safe storage of nuclear substances and radiation devices.
Ensure the safe handling and disposal of any radioactive waste in compliance with the local,
provincial and federal authorities.
Provide support in decommissioning tasks.
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Appendix B: Radiation Safety Committee
Licensees and applicants with complex programs are advised to establish a radiation safety committee
(RSC), which may have corporate responsibilities for radiation safety, or it may simply have an advisory
or evaluation role. The information in this appendix should be considered when developing a complex
RPP with an RSC.
B.1 Role and Responsibilities
The RSC may be tasked with providing advice or direction on radiation safety matters and with ensuring
the implementation and oversight of the RPP. Such committees are usually established or retained with
the approval of the applicant authority. The RSC should work in collaboration with the health and safety
committee.
The RSC works with the applicant authority and the RSO to define, plan and control the implementation
of the RPP, in order to ensure that the RPP is aligned and integrated with the core business objectives of
the licensed activity. As such, the RSC should be involved in establishing policies and procedures for
managing the RPP. The role of the RSC may include the following:
1. overseeing the RPP and radiation safety matters
2. advising on radiation safety matters, including the safe use of nuclear substances and radiation
devices during licensed activities
3. ensuring that radiation exposures for all nuclear energy workers and general public are maintained as
low as reasonably achievable
4. review proposed uses of nuclear substances and radiation devices and determine whether they comply
with the RPP and regulatory requirements
5. assessing the adequacy and the effectiveness of the training programs
6. reviewing the results of RPP assessments
7. discussing positive and negative operational experiences to determine where improvement is needed
8. reviewing any reports concerning events or unusual occurrences
9. recommending corrective measures or improvements when the review or assessment identifies
deficiencies
10. recommending measures or improvements to prevent the reoccurrence of any events
11. advising the applicant authority of any need for additional resources to establish, maintain or improve
the RPP
The RSC should maintain written records of its meetings, as detailed in section B.4.
B.2 Membership
RSCs should include members selected or appointed because of their expertise or involvement in
radiation safety matters. Collectively, these members should advise their managers and RSOs on radiation
safety matters in general and on the RPP effectiveness within the organization in particular. RSC
members may participate on a full-time or part-time basis.
The RSC should comprise members from multiple disciplines. An RSC should include at least the RSO
and site RSOs, an authorized user from each type of licensed activity, a representative of the auxiliary
personnel (e.g., clerical, janitorial, security), a representative of the nursing service where applicable
(therapeutic nuclear medicine licence) and a management representative. The RSC may also include
physicians, physicists, and corporate interest group representatives such as managers (senior staff
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members), workers or specific user units. It should also include a representative of the health and safety
committee. Every department with employees who receive occupational doses or that has an impact on
radiation exposure or safety should also be represented.
When selecting a chairperson for the committee, several factors should be considered, such as knowledge
of radiation safety and leadership abilities. The chairperson should have sufficient time to devote to this
position in addition to other responsibilities. In general, the RSO should not be appointed chairperson of
the RSC, since this person is responsible for the day-to-day oversight of the RPP and may be too closely
involved in the licensed activities to be objective.
The RSO’s participation is essential, as is that of a site RSO from each authorized location. Any decision
made by the RSC should be communicated to the applicant authority before being carried out.
B.3 Terms of Reference
The RSC’s terms of reference depend on individual circumstances, such as management decisions,
procedures, available resources, licence requirements and the magnitude, diversity or complexity of the
licensed activities. The terms of reference should contain the following:
1. decision-making system
2. quorum requirements
3. membership
4. roles and responsibilities (refer to section B.1)
5. members’ roles and responsibilities
6. meeting agenda items
7. meeting frequency
8. examples of circumstances leading to non-routine meetings
The terms of reference should be part of the RPP.
B.4 Meetings
Meetings are vital to the effective functioning of the RSC and its ability to provide oversight on matters
pertinent to radiation safety. They are necessary for decision making, problem solving, discussion of
issues, and review and approval of policies and procedures that form the radiation safety program. The
RSC should meet as necessary, but at least annually
A quorum should ensure a minimum participation. Quorum can be a majority, but has to be defined
according to the committee’s needs and purposes.
Written minutes and any associated actions should be maintained for future reference and circulated to all
RSC members. Minutes should include the meeting date, the members present and absent to demonstrate
that quorum was respected, and a summary of discussions, recommendations and any decisions made
during the meeting.
The RSC relies on the RSO’s experience with the details of the RPP and applicable regulatory
requirements, as members may not have the same level radiation safety knowledge.
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Glossary
For definitions of terms used in this document, see REGDOC-3.6, Glossary of CNSC Terminology, which
includes terms and definitions used in the Nuclear Safety and Control Act and the regulations made under
it, and in CNSC regulatory documents and other publications. REGDOC-3.6 is provided for reference and
information.
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References
The CNSC may include references to information on best practices and standards such as those published
by CSA Group. With permission of the publisher, CSA Group, all nuclear-related CSA standards may be
viewed at no cost through the CNSC Web page “How to gain free access to all nuclear-related CSA
standards”.
1. Canadian Nuclear Safety Commission (CNSC), REGDOC-1.6.1, Licence Application Guide:
Nuclear Substances and Radiation Devices, Ottawa, Canada, 2017.
2. CNSC, Welcome Package: Applicant Authority, Nuclear Substances and Radiation Devices
Licences, Ottawa, Canada, 2020.
3. CNSC, REGDOC-2.2.2, Personnel Training, Ottawa, Canada, 2016.
4. CNSC, REGDOC-2.1.1, Management System, Ottawa, Canada, 2019.
5. CSA Group, CSA N286-12, Management System Requirements for Nuclear Facilities,
Mississauga, Canada, 2012.
6. Procedure Professionals Association (PPA), Procedure Writers’ Manual, PPA AP-907-005,
USA, 2016.
7. PPA, Procedure Process Description, PPA AP-907-001, USA, 2016.
8. United States Environmental Protection Agency, Guidance for Preparing Standard Operating
Procedures, EPA QA/G-6, USA, 2001.
9. CNSC, REGDOC-2.1.2, Safety Culture, Ottawa, Canada, 2018.
10. International Organization for Standardization, ISO 9001: 2015, Quality management systems -
Requirements, 2015.
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CNSC Regulatory Document Series
Facilities and activities within the nuclear sector in Canada are regulated by the CNSC. In addition to the
Nuclear Safety and Control Act and associated regulations, these facilities and activities may also be
required to comply with other regulatory instruments such as regulatory documents or standards.
CNSC regulatory documents are classified under the following categories and series:
1.0 Regulated facilities and activities
Series 1.1 Reactor facilities
1.2 Class IB facilities
1.3 Uranium mines and mills
1.4 Class II facilities
1.5 Certification of prescribed equipment
1.6 Nuclear substances and radiation devices
2.0 Safety and control areas
Series 2.1 Management system
2.2 Human performance management
2.3 Operating performance
2.4 Safety analysis
2.5 Physical design
2.6 Fitness for service
2.7 Radiation protection
2.8 Conventional health and safety
2.9 Environmental protection
2.10 Emergency management and fire protection
2.11 Waste management
2.12 Security
2.13 Safeguards and non-proliferation
2.14 Packaging and transport
3.0 Other regulatory areas
Series 3.1 Reporting requirements
3.2 Public and Indigenous engagement
3.3 Financial guarantees
3.4 Commission proceedings
3.5 CNSC processes and practices
3.6 Glossary of CNSC terminology
Note: The regulatory document series may be adjusted periodically by the CNSC. Each regulatory
document series listed above may contain multiple regulatory documents. Visit the CNSC’s website for
the latest list of regulatory documents.
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